Optical information processing
Iu E Nesterikhin,George W. Stroke,Winston E. Kock +2 more
- 01 Jan 1976
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TL;DR: Optical Realization of a Foucault-Hilbert Transform as mentioned in this paper is an example of a coherent optical computing system for information processing in Holographic Memory Devices (HMM).
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Abstract: Optical Realization of a Foucault-Hilbert Transform.- Materials and Devices for Coherent Optical Computing.- Information Processing in Optical Systems of Holographic Memory Devices.- Generation of Asymmetric Interference Fringes in Reflected Light.- Noise in Coherent Optical Information Processing.- Informational Capacity of Coherent Optical Processing Systems.- Extensions of Synthetic Aperture Radar Information Processing.- Controlled Transparencies for Optical Processing.- Kinoform Optical Elements.- Acoustooptic Signal Processing.- Some Peculiarities of Physical Realization of Operation Optical Memory.- Non-Coherent Optical System for Processing of Images and Signals.- Optical Logic and Optically Accessed Digital Storage.- Nonlinear Optical Processing.- Optical Foundations of Digital Communication and Information Processing.- The Information Content of Optical Diffraction Patterns.- Holographic Memories.- Biographies of Authors.- Author Index.
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Citations
Guided-wave acoustooptic Bragg modulators for wide-band integrated optic communications and signal processing (Invited Paper)
TL;DR: In this article, the authors present a selective review of planar guided-wave acoustooptics, including some of the most recent results, focusing on those aspects which relate to wide-band multichannel optical communications and real-time signal processing.
179
Image improvement and three-dimensional reconstruction using holographic image processing
G.W. Stroke,M. Halioua,F. Thon,D.H. Willasch +3 more
- 01 Jan 1977
TL;DR: In this paper, an analysis of optical versus digital computing for image improvement and synthesis in electron microscopy and X-ray crystallography applications is presented, and examples for the improvement of resolution and 3D reconstruction are given.
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Hybrid processing systems—An assessment
B.J. Thompson
- 01 Jan 1977
TL;DR: The potential of hybrid processing systems is reviewed in this paper, where coherent optical, electro-optical, electronic, and digital subsystems are combined to produce a modified image of the original input.
34
Real-time color-coding of depth using a white-light Talbot interferometer
TL;DR: In this article, a method for real-time color-coding of depth using a white-light Talbot interferometer is presented based on the fact that the Talbot planes of a grating are formed at different distances for different colors.
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Physical and Technological Limitations of Optical Information Processing and Computing
TL;DR: A wide range of computational problems exist that lend themselves quite naturally to optical processing architectures, including pattern recognition, earth resources data acquisition and analysis, texture discrimination, synthetic aperture radar (SAR) image formation, radar ambiguity function generation, spread spectrum identification andAnalysis, systolic array processing, phased array beam steering, and artificial (robotic) vision.
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